Green Sustainable Process for Chemical and Environmental Engineering and Science Supercritical Carbon Dioxide as Green Solvent 1st edition by Inamuddin, Abduilah Asiri, Arum Isloor 0128173890 9780128173893

Green Sustainable Process for Chemical and Environmental Engineering and Science: Supercritical Carbon Dioxide as Green Solvent 1st edition by Inamuddin, Abduilah M. Asiri, Arum M. Isloor – Ebook PDF Instant Download/DeliveryISBN:  0128173890, 9780128173893 

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Product details:

ISBN-10 :  0128173890 

ISBN-13 :  9780128173893

Author : Inamuddin, Abduilah M. Asiri, Arum M. Isloor 

Green Sustainable Processes for Chemical and Environmental Engineering and Science: Supercritical Carbon Dioxide as Green Solvent provides an in-depth review on the area of green processes for the industry, focusing on the separation, purification and extraction of medicinal, biological and bioactive compounds utilizing supercritical carbon dioxide as a green solvent and their applications in pharmaceuticals, polymers, leather, paper, water filtration, textiles and more. Chapters explore polymerization, polymer composite production, polymer blending, particle production, microcellular foaming, polymer processing using supercritical carbon dioxide, and a method for the production of micro- and nano-scale particles using supercritical carbon dioxide that focuses on the pharmaceutical industry.

Green Sustainable Process for Chemical and Environmental Engineering and Science: Supercritical Carbon Dioxide as Green Solvent 1st Table of contents:

Chapter 1: Polymer production and processing using supercritical carbon dioxide
Abstract
1 Introduction
2 Properties of supercritical CO2
3 Applications of SCO2 in polymer production and processing
4 Polymer production
5 Polymer processing
6 Future prospects
7 Challenges ahead
8 Conclusion
Chapter 2: Extraction of lipids from algae using supercritical carbon dioxide
Abstract
1 Introduction
2 Lipid accumulation in microalgae
3 Existing methods for lipid extraction from microalgae
4 Problems associated with currently available methods
5 Hydrothermal liquefaction (HTL)
6 Supercritical fluid extraction
7 Conclusions and future perspectives
Chapter 3: Extraction of catechins from green tea using supercritical carbon dioxide
Abstract
Acknowledgment
1 Introduction
2 Green solvent
3 Carbon dioxide as a green solvent
4 Green tea composition and bioactives
5 Extraction techniques
6 Standardization of method
7 Operating parameters
8 Qualitative assessment
9 Conclusion
Chapter 4: Application of supercritical CO2 for enhanced oil recovery
Abstract
Acknowledgments
1 Introduction
2 Aromatic plants and EOs
3 Extraction methods
4 Supercritical fluid extraction
5 Factors affecting SFE
6 Comparison of SFE-CO2 with other extraction techniques for oil recovery
7 Conclusions
Chapter 5: Metal recovery using supercritical carbon dioxide
Abstract
1 Introduction
2 Processes for recycling of WEEE
3 Extraction of metal ions from aqueous solutions using ScCO2 in the presence of complexing agents
4 Extraction of metals from solid and particulate matrices using ScCO2
5 Conclusions
Chapter 6: Use of supercritical carbon dioxide in alkylation reactions
Abstract
1 Introduction
2 Supercritical fluids as sustainable solvents
3 Supercritical carbon dioxide as unique green solvent
4 Reaction with scCO2
5 ScCO2 in alkylation reactions
6 Conclusion
Chapter 7: Extraction of phytochemicals from saffron by supercritical carbon dioxide
Abstract
Acknowledgment
1 Introduction
2 Extraction of saffron
3 Supercritical CO2 system for saffron extraction
4 Economic assessment on supercritical CO2 extraction of saffron
5 Conclusion
Chapter 8: Extraction of bioactive compounds
Abstract
Acknowledgment
1 Introduction
2 CO2 as supercritical fluid
3 Supercritical carbon dioxide properties
4 SC-CO2 extraction
5 Bioactive compounds extraction by SC-CO2
6 Considerations
Chapter 9: Extraction of propolis using supercritical carbon dioxide
Abstract
1 Introduction
2 Propolis: Geographical origin and biological properties
3 SFE using CO2
4 Patents
5 Conclusion
Chapter 10: Solubility of pharmaceutical compounds in supercritical carbon dioxide: Application, experimental, and mathematical modeling
Abstract
1 Introduction
2 Solubility of pharmaceutics in SC-CO2
3 Solid solubility in SC-CO2 using EOSs
4 Conclusion
Chapter 11: Decaffeination using supercritical carbon dioxide
Abstract
Acknowledgments
1 Introduction
2 Carbon dioxide as a green supercritical fluid
3 Why extracting caffeine?
4 Decaffeination by supercritical technology
5 Decaffeination of coffee
6 Decaffeination of tea
7 Decaffeination using carbon dioxide at industrial scale
8 Future outlooks
Chapter 12: Supercritical fluids for the extraction of oleoresins and plant phenolics
Abstract
1 Introduction
2 Oleoresins and plant phenolics
3 Supercritical extraction of oleoresins
4 Supercritical extraction of plant phenolics
5 Conclusion
Chapter 13: Applications of supercritical carbon dioxide in textile industry
Abstract
1 Introduction
2 Characteristics of textile fibers
3 Textile dyes
4 Overview of the dyeing process
5 Supercritical CO2
6 Application of scCO2 to textile dyeing
7 Overview of the scCO2 dyeing process
8 Advantages of scCO2 in textile dyeing
9 Effect of scCO2 on textile fibers
10 Shrinkage behavior
11 Plasticizing effect of CO2 on fiber polymer
12 Glass transition temperature
13 Factors affecting scCO2 dyeing
14 The washing step (postdyeing)
15 Solubility of dyes in scCO2
16 Dye distribution between fiber and CO2
17 Mass transfer phenomena between fiber and CO2
18 Supercritical dyeing of synthetic fibers
19 Supercritical dyeing of natural fibers
20 Fiber modification technologies
21 Possibility for optimization
22 Challenges and limitations of scCO2 dyeing
23 Future prospects
24 Conclusion
Chapter 14: Hydrogenation of fats and oils using supercritical carbon dioxide
Abstract
Chapter 15: Extraction of bioactives from citrus
Abstract
1 Introduction
2 Composition of citrus fruits
3 Bioactives in citrus
4 Health benefits of these bioactives
5 Extraction of bioactive compounds from citrus
6 Utilization of citrus bioactives
7 Conclusion
Chapter 16: Solubility of organic compounds in scCO2
Abstract
Acknowledgment
1 Suitability of CO2 as solvent for SCF
2 Enhancing solubility in scCO2
3 Use of models to correlate experimental solubility data
4 Case studies of solubility of organic compounds in scCO2
5 Amoxicillin
6 Antiinflammatory drugs
7 Artemisinin
8 Anesthetics
9 Cholesterol
10 Dexamethasone
11 Flurbiprofen
12 Isoniazid
13 2,2′-Bipyridine and 4,4′-dimethyl-2,2′-bipyridine
14 Amide compounds
15 Polynuclear aromatic hydrocarbons
16 Maleic acid
17 Menthol
18 Methyl salicylate
19 Phenacetin
20 Oxymatrine
21 Polyacrylamide
22 1,4-Dimethoxybenzene
23 Troeger’s base
24 Palmitic acid + capsaicin
25 Phenol and pyrocatechol
26 2H-chromene derivatives
27 Fat-soluble vitamins A, D, E, and K
28 Disperse dyes
29 Anthracene, phenanthrene, and carbazole mixture
30 6-Caprolactam
31 Solubility of energetic materials in SCFs
32 Extraction of metal ions
33 Catalysis in scCO2
34 Palladium-catalyzed C-C coupling reactions
35 Hydrogenation and hydroformylation
36 Asymmetric hydrogenation (AH)
37 Polymerization solvent
38 Summary
Chapter 17: Supercritical fluid based extraction of marigold principles
Abstract
1 Introduction
2 Marigold carotenoids
3 Extraction of Marigold carotenoids
4 SFE of Marigold carotenoids
5 SFE of faradiol esters from Marigold
6 SFE of Marigold oleoresin
7 SFE of Marigold phenolic bioactives
8 SFE of Marigold essential oil
9 Conclusion and future prospectus
Chapter 18: Industrial polymer synthesis using supercritical carbon dioxide
Abstract
1 Introduction
2 Supercritical carbon dioxide as the polymerization solvent
3 Polymers synthesized using supercritical carbon dioxide
4 Conclusions
Chapter 19: Organometallic compounds solubility in supercritical carbon dioxide (SCCO2): Measurement techniques, variables affecting solubility, recent developments, and thermodynamic modeling
Abstract
1 Introduction
2 Organometallic compounds
3 Supercritical carbon dioxide (SCCO2)
4 Solubility
5 Literature review of organometallic compounds solubility in SCCO2
6 Thermodynamic modeling
7 Conclusions

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Tags: Green Sustainable, Chemical, Environmental Engineering, Science, Supercritical, Carbon Dioxide, Inamuddin, Abduilah Asiri, Arum Isloor